Reg4 deficiency aggravates pancreatitis by increasing mitochondrial cell death and fibrosis

Regenerating gene family member 4 (Reg4) has been implicated in acute pancreatitis, but its precise functions and involved mechanisms have remained unclear. Herein, we sought to investigate the contribution of Reg4 to the pathogenesis of pancreatitis and evaluate its therapeutic effects in experimental pancreatitis. In acute pancreatitis, Reg4 deletion increases inflammatory infiltrates and mitochondrial cell death and decreases autophagy recovery, which are rescued by the administration of recombinant Reg4 (rReg4) protein. In chronic pancreatitis, Reg4 deficiency aggravates inflammation and fibrosis and inhibits compensatory cell proliferation. Moreover, C-X-C motif ligand 12 (CXCL12)/C-X-C motif receptor 4 (CXCR4) axis is sustained and activated in Reg4-deficient pancreas. The detrimental effects of Reg4 deletion are attenuated by the administration of the approved CXCR4 antagonist plerixafor (AMD3100). Mechanistically, Reg4 mediates its function in pancreatitis potentially via binding its receptor exostosin-like glycosyltransferase 3 (Extl3). In conclusion, our findings suggest that Reg4 exerts a therapeutic effect during pancreatitis by limiting inflammation and fibrosis and improving cellular regeneration.


INTRODUCTION
Regenerating gene family member 4 (Reg4, REG4 in human) is the most recently discovered member of the regenerating (Reg) family [1,2].REG4 gene is predominantly expressed in gastrointestinal tract tissues that include the pancreas [1,3].The aberrant expression of REG4 in the pancreas has been linked to both pancreatitis and pancreatic cancer [4][5][6][7][8].During acute pancreatitis (AP), the recombinant human REG4 protein has been shown to protect against acinar cell necrosis [7,8], but its precise roles and involved mechanisms in the pathogenesis of pancreatitis are remained poor understood.Herein, we knocked out Reg4 in mice to test the hypothesis that loss of Reg4 constitutes a pathogenic factor in pancreatitis.On the basis of this concept, we next used recombinant Reg4 (rReg4) protein therapeutically to ameliorate caerulein-induced pancreatitis.Our results firstly showed that Reg4 deletion resulted in the persistence of inflammatory and cell death in acute pancreatitis, and further confirmed rReg4 could protect mice against cell death [8].Moreover, rReg4 also increased compensatory cell repaired via increasing the autophagy process.In chronic pancreatitis (CP), Reg4 deletion aggravated pancreatic fibrosis and enhanced activation of the C-X-C motif ligand 12 (CXCL12)/C-X-C motif receptor 4 (CXCR4) axis.The aggravating effects of Reg4 deletion were abrogated by the administration of the CXCR4 antagonist plerixafor (AMD3100).Taken together, our results suggest that Reg4 has therapeutic effect for pancreatitis and deepened our understanding of the mechanisms underlying Reg4 functions in pancreatitis.

REG4 is reduced during the pancreatitis
In the human pancreas, single-cell transcriptomics analysis indicated that REG4 mRNA was mainly expressed in exocrine glandular cells and ductal cells (https://proteinatlas.org[9,10]).In mice pancreases, colorimetric in situ hybridization (CISH) analysis confirmed that Reg4 mRNA was selectively expressed in glandular cells and ductal cells (Fig. S1A).Immunofluorescence (IF) staining showed that mouse REG4 protein was primarily located in islets and in goblet-like cell vesicles around the surfaces of ductal cells (Fig. S1B).The enzyme-linked immunosorbent assay (ELISA) analysis showed that the levels of blood REG4 protein were downregulated in children with pancreatitis (PA, n = 15) compared to age-matched controls (HC, n = 30, P < 0.05, Fig. 1A).Our analysis of publicly available datasets [11] (GSE194331) showed that human REG4 mRNA expression was also decreased in the blood of patients with AP (n = 87) relative to healthy control (HC, n = 32, P < 0.05, Fig. 1B).We also observed that the CXC chemokine receptor 4 (CXCR4) mRNA increased in AP patients but not reach significant level (Fig. 1C).The CXC chemokine receptor 7 (CXCR7) mRNA was significantly reduced in AP patients (Fig. 1C).The ELISA assay depicted serum levels of mice REG4 were reduced during the periods of caerulein-induced pancreatitis (Fig. S2A).In addition, the REG4 proteins in mice pancreas were also reduced during pancreatitis (Fig. S2B, C).

Reg4 deficiency exacerbates experimental pancreatitis
To investigate the roles of Reg4 in pancreatitis, we initially depleted the Reg4 in mice (Reg4 −/− ) and then established the models of pancreatitis as described previously (Fig. 2A) [12].Our results showed that Reg4 −/− mice had a smaller and lighter pancreas than Wt mice (Fig. S3A, B).IF staining for acinar cells and islets showed that Reg4 −/− mice exhibited more pancreatic damage, with greater destruction of acinar and islet cells than that of Wt mice (Fig. 2B, C).Serum amylase activity peaked at approximately 6 h following the caerulein treatment, and we noted less activity in Reg4 −/− mice than in Wt mice (Fig. 2D).Histologically, hematoxylin and eosin (H&E)-stained sections of pancreas revealed a significant elevation in cellular necrosis in the caerulein-treated Reg4 −/− mice compared to the caerulein-treated Wt mice (Fig. S4A, B).We visualized immune cell infiltrates during caerulein-induced pancreatitis by staining for CD45 and observed more significant CD45 infiltration in Reg4 −/− mice at most time points relative to Wt mice during caerulein treatment (Fig. S4C, D). Surprisingly, F4/80 + macrophages were found to decrease in pancreases of Reg4 −/− mice compared to Wt mice (Fig. S5A-C).
Reg4 depletion reduces compensatory regeneration IF staining for the acinar cell marker amylase and ductal cell marker cytokeratin 19 (CK19) showed that both the acinar cell area and the number of ductal cells were significantly reduced in the pancreases of Reg4 −/− mice compared to that of Wt mice during acute and chronic experimental pancreatitis (Fig. 3A, B).Immunohistochemical (IHC) staining of proliferating cell nuclear antigen (PCNA) indicated fewer proliferative cells in the pancreases of Reg4 −/− mice than in Wt mice, particularly during acute pancreatitis (Fig. S6A, B).Consistently, IF staining of antigen identified by proliferation marker protein antibody Ki67 also showed that the Reg4 −/− mice possessed fewer regenerative cells than did Wt mice (Fig. S7A, B).Moreover, the IF co-staining of Ki67 with CK19 or amylase indicated fewer regenerative acinar cells and ductal cells in Reg4 −/− mice than in Wt mice (Fig. 3C-F).The sex-determining region Y-box (SRY-box)-containing gene 9 (SOX9) is a marker of progenitor cells that give rise to endocrine and acinar cells [13,14].IF staining showed that SOX9 + cells were reduced in the pancreases of Reg4 −/− mice compared to Wt mice during pancreatitis (Fig. 4A, B).IF co-staining of SOX9 with CK19 indicated that SOX9 was principally expressed in CK19 + ductal cells (Fig. 4C, D).
To examine whether therapeutic administration of Reg4 reverses pancreatitis, recombinant Reg4 (rReg4) was injected twice (at 0 h and 8 h) into Reg4 −/− mice with or without caeruleinintroduction, and the mice were sacrificed 24 h after treatment (Fig. S8A).H&E-stained sections of the pancreas revealed a significant elevation in cellular necrosis in caerulein-treated Reg4 −/− mice that was counteracted by the administration of rReg4 (Fig. S8B).Terminal deoxynucleotidyl transferase dUTP nickend labeling (TUNEL) assays indicated that the increased percentage of TUNEL-positive cells (i.e., apoptotic cells) observed in the pancreases of caerulein-treated mice was attenuated by rReg4 treatment (Fig. S8C).Western-blot (WB) analysis indicated that rReg4 administration induced mitochondrial protein B cell leukemia/lymphoma 2 (BCL-2), but inhibited the mitochondrial protein P53 upregulated modulator of apoptosis (PUMA), and then reduced the apoptotic mediators cleaved-caspase 3/9 in mouse pancreases during AP (Fig. S8D, E).In vitro, lactate dehydrogenase (LDH)-release analysis indicated that rReg4 administration inhibited caerulein-or arginine-induced necrosis in isolated acinar cells at the indicated time (Fig. S9A, B).
Fig. 2 Reg4 deficiency aggravates caerulein-induced pancreatic injuries.A Mice models of acute pancreatitis (AP) and chronic pancreatitis (CP).AP was induced in mice with 8 hourly injections of caerulein in Reg4 knockout (Reg4 −/− ) mice and wild-type (Wt) mice.The animals were sacrificed for analysis 6, 24, or 30 h after the initial caerulein injection.CP was then established by repeated episodes of acute caeruleininduced pancreatitis over 4 weeks.Mice were killed 2, 4, 6 or 8 weeks after the first injection.B, C Immunofluorescence (IF) staining of pancreatic sections for Amylase (red) and glucagon (green) + insulin (red) during pancreatitis (for each group, n ≥ 4; t = 6 h, 24 h, 2 weeks, 4 weeks, or 6 weeks).D Serum activities of amylase in Reg4 −/− and Wt mice injected with caerulein were determined at the indicated time points (for each group, n ≥ 4; unpaired, two-tailed Student's t-test with or without Welch's correction analysis for (D); ns not significant, *P < 0.05, **P < 0.01).expression was attenuated by rReg4 administration (Fig. S10C, D).WB analysis revealed that the protein levels of the ductal cell marker CK19, the acinar cell maker amylase, the proliferative cell marker PCNA, and the progenitor cell marker SOX9 decreased in the pancreases of Reg4 −/− mice with or without caerulein exposure, but their expression was improved by rReg4 administration (Fig. 5A, B).The kinase mammalian target of rapamycin (mTOR) is a critical regulator of autophagy induction that can be negatively regulated by AMPK activation [15,16].WB analysis herein indicated that phosphorylated-AMPK (p-AMPK) increased and phosphorylated-mTOR (p-mTOR) decreased, with concomitantly reduced autophagy in the pancreases of Reg4 −/− mice during pancreatitis, but these alterations were circumvented by rReg4 administration (Fig. 5C, D).We also observed that Reg4 depletion reduced autophagy marker LC3 protein reduced and increased autophagy adaptor protein sequestosome 1 (SQSTM1/ p62) in mice pancreas (Fig. 5C-F).

Reg4 deletion increases fibrosis via activating CXCL12/ CXCR4 axis
Masson's trichrome staining and IF staining of α-SMA both indicated that caerulein-induced significant pancreatic fibrosis in both Wt mice and Reg4 −/− mice but that it exerted a far greater impact on Reg4 −/− mice during CP (Fig. 6A-C).Indeed, we demonstrated that hydroxyproline levels were elevated in pancreases of Reg4 −/− mice compared with Wt mice following the caerulein treatment at the indicated time (2, 4, or 6 weeks; Fig. 6D).These results were consistent with our findings in AP,   where the CXCL12/CXCR4 axis was robustly activated in CP samples of Reg4 −/− mice (Fig. 6E, F).A previous study indicated that CXCL12/CXCR4 axis activation contributed to the progression of fibrosis during experimental pancreatitis [12].Accordingly, Reg4 deficiency-induced fibrosis in the pancreas may be dependent upon the induction of the CXCL12/CXCR4 axis.To examine this, we treated the Reg4 −/− mice with the CXCR4 antagonist plerixafor (AMD3100) with two daily injections (2.5 mg/kg body weight) initiated 1 day before the induction of pancreatitis and which lasted until day 7 when the mice were sacrificed (Fig. 7A).Treatment of mice with plerixafor alleviated the features of fibrosis, commensurate with the declining expression of α-SMA and SMAD2/3 activation in the late phase of AP in Reg4 −/− mice (Fig. 7B-D).This CXCR4 antagonist also limited inflammation and mitigated atrophy by reducing CXCL12 and promoting the SOX9 and CK19 expression (Fig. 7B-D).
EXTL3 acts as a putative receptor for REG4 in the pancreas Immunofluorescence (IF) analysis showed co-localization of EXTL3 (red) with REG4 (green) in the mice pancreas (Fig. 8A).The interaction between EXTL3 and REG4 in mice pancreas was further confirmed by the detection of EXTL3 by co-immunoprecipitation (Co-IP) with REG4 antibody (Fig. 8B).To confirm that EXTL3 is involved in regulating downstream REG4 protein, we examined the effect of silencing Extl3 by siRNA in the MIN6 islet cell line.It showed that cerulean-induced cell apoptosis in MIN6 islet cell with increased the expression of cleaved-caspase 3 or PUMA, and these effects were attenuated by rReg4 treatment (Fig. 8C, D).Silencing the Extl3 aggravated cerulean-inducing cell death and in MIN6 islet cells (Fig. 8C, D).Moreover, rReg4-mediated pro-survival effects on the MIN6 islet cells was inhibited upon silencing Extl3 (Fig. 8C, D).

DISCUSSION
Acute pancreatitis (AP), acute recurrent pancreatitis (ARP), and chronic pancreatitis (CP) have become significant health issues in the pediatric population [17][18][19].Although recent studies have linked genetic and congenital abnormalities with pediatric ARP and CP [20][21][22][23][24], there are gaps in our knowledge of the natural history of pediatric pancreatitis and there are no established guidelines regarding treatment to improve clinical outcomes.Thus, there is an urgent need for novel therapies.We herein showed that Reg4 constitutes a potentially novel therapeutic target in the treatment of pancreatitis by demonstrating a reduction in impaired regeneration and progressive fibrosis employing a mouse model.We first ascertained that both blood REG4 levels were reduced during pancreatitis in clinical samples.Second, Reg4 deficiency exacerbated caerulein-induced experimental pancreatitis and impaired regeneration, and these effects were attenuated by the administration of recombinant Reg4 protein.Finally, we noted that REG4 limited caerulein-induced fibrosis, at least in part, via inhibiting the activation of the CXCL12/ CXCR4 pathway.EXTL3 may functions as the receptor for REG4 during pancreatitis.
AP is characterized by immune cell infiltration and a pronounced loss of acinar and islet cells.In this study, Reg4 ablation increased immune cell infiltration and exacerbated the loss of acinar and islet cells, both of which were rescued by the administration of recombinant Reg4 protein.Mitochondrial dysfunction has been reported to play a central role in the development of AP [25].Thus, Reg4 administration increased the levels of the anti-apoptotic mitochondrial molecule Bcl-2 and decreased Puma-mediated apoptosis, suggesting that Reg4 protected acinar and islet cells from cell death in pancreatitis by stabilizing mitochondria against death signals.Impaired mitochondrial function has been shown to lead to the accumulation of reactive oxygen species (ROS), endoplasmic reticulum (ER) stress, and autophagic dysfunction in mouse models of pancreatitis [26][27][28].Consistent with these previous findings, we noted that Reg4 deficiency impaired autophagic function by increasing P62 and decreasing LC3 levels during AP.AMPK is an important cellular energy sensor that regulates autophagy via the negative regulation of mTOR protein kinase [29][30][31].AMPK can also inhibit mTORC1 signaling and thereby further suppress autophagosome maturation [30].Intriguingly, Reg4 deficiency leads to an increase in the activation of AMPK, suggesting that AMPK/mTOR signaling may be involved in Reg4 deficiency-mediated autophagic inhibition during pancreatitis.During pancreatic regeneration, the loss of Reg4 caused regenerative retardation with a decrease in proliferative cell number and SOX9 expression.SOX9 is notable as a source of progenitors for pancreatic growth and regeneration [32].For example, pancreas-specific SOX9 depletion in mice resulted in severe pancreatic hypoplasia, suggesting that SOX9 functions in the expansion of the pool of multipotent progenitor cells that give rise to endocrine and acinar cells throughout development [13,33].SOX9 expression in pancreatic tissue sections and extracts was strongly induced after Reg4 protein administration in Reg4 knockout mice, suggesting that Reg4 contributes to regeneration by regulating SOX9.IF analyses suggested that SOX9-positive cells also stained positive for CK19, indicating that they were either duct cells or duct-like cells that originated from acinar cells due to acinar-ductal metaplasia.We herein also observed macrophage accumulation in the pancreas of Reg4 knockout mice during regeneration.Since it was reported that depletion of macrophages impaired pancreatic regeneration [34], we hypothesize that Reg4 may have contributed to the regeneration, in part, via attracting the macrophages.Intriguingly, we also demonstrated that Reg4 deficiency increased pancreatic fibrosis via activation of the CXCL12/CXCR4 axis.Since the CXCL12/CXCR4 signaling has been identified as a mediator of fibrosis [12,35], the pharmacological inhibition of CXCR4 in our study (limited inflammation and fibrosis) revealed the translational relevance of our model.Reg4 ablation may increase CXCL12/CXCR4 axis activation during pancreatitis and thereby potentially lead to stimulated TGF-β/SMADs profibrotic signaling, and this might then activate pancreatic stellate cells.Indeed, CXCR4 inhibition attenuated the phosphorylation of Smad2/3 during pancreatitis.
Exostosin tumor-like 3 (EXTL3) has been identified as a Reg receptor.EXTL3 has been reported to act as the Reg1α receptor and involved in the regulation of pancreatic β-cells for maintaining the β-cell mass [36].On other cell types, Reg1α stimulated neurite outgrowth via its receptor EXTL3 [37].Zhang et al., recently reported that EXTL3 also functions as the receptor for REG3B in pancreatic ductal adenocarcinoma [38].We here evaluated whether EXTL3 could interact with REG4.Dual immunofluorescence staining demonstrated co-localization of EXTL3 and REG4 in mice pancreas.Co-immunoprecipitation experiments confirmed an interaction between EXTL3 and REG4.Silencing Extl3 in mouse acinar cells and islet cells resulted in a reduction of cell survival and with or without caerulein treatment.In addition, silencing Extl3 abolished upon the effects mediated by Reg4 protein administration on the acinar cells and islet cells.Silencing Extl3 also reduced the activation of Reg4-mediated survival and regeneration signaling.We thus suggest Extl3 may functions as the receptor for Reg4 and mediates the activation of downstream signaling proteins during pancreatitis.
In conclusion, our study provides evidence for the protective function of Reg4 in which this molecule attenuated inflammation, mitochondrial cell death, and fibrosis and promoted regeneration during pancreatitis.These findings emphasize the concept that REG4 possesses potential therapeutic use in the prevention of pancreatitis and in the treatment of children with pancreatitis.

MATERIALS AND METHODS Pediatric patients with pancreatitis
A total of 15 children with pancreatitis (seven children with acute pancreatitis, AP, and eight children with chronic pancreatitis, CP; age, 2-11 years, with eight boys and seven girls).Thirty age-matched control children (nine boys and 21 girls) from Xin Hua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai, China participated in this study.Written consent was obtained from the parents of all participants.The study protocol was reviewed and approved by the Ethics Committee of Xin Hua Hospital, School of Medicine, Shanghai Jiao Tong University (XHEC-D-2022-268).Information on patients with pancreatitis is presented in Supplementary Table S1.
Cell Death and Disease (2024) 15:348 n = 8, male, n = 9; rReg4 treated Reg4 −/− mice: female, n = 8, male, n = 8) after the first injection (at 50 µg/kg body weight, 8 hourly intraperitoneal injections).To analyze the role of CXCL12/CXCR4 axis in pancreatic fibrosis, the mice were injected intraperitoneally with the CXCR4 inhibitor plerixafor (AMD3100) twice daily at a dosage of 2.5 mg/kg body weight on the day before the induction of AP and until the animals were killed after 7 days of the first caerulein administration (Untreated Reg4 −/− mice: female, n = 4, male, n = 4; AMD3100 treated Reg4 −/− mice: female, n = 4, male, n = 4).Serum was collected and centrifuged at 3500 × g for 20 min.The pancreatic samples were collected, snap-frozen in liquid nitrogen, and stored at −80 °C for further analysis, and other pancreatic samples were fixed in 4% paraformaldehyde (PFA) for morphological studies.

Colorimetric in situ hybridization (CISH)
All process of the CISH were using the diethylpyrocarbonate (DEPC) water as described in a previous study [39].Briefly, some pancreatic tissues from the mice were immediately fixed in 4% paraformaldehyde (PFA) and embedded in paraffin, and then were deparaffinized in xylene and rehydrated in serial dilutions of ethanol.The slides were incubated with proteinase K (20 μg/mL) at 37 °C for 30 min and then washed with phosphate-buffered saline (PBS, three times for 5 min each) and hybridized overnight with a probe specific to Reg4 at a concentration of 8 μg/mL in a moist chamber at 37 °C.The probe sequence for mouse Reg4 was 5′-DIG-GCACAGGAAGTGTTGGCGGTTGG-3′, and this Reg4 probe was labeled with digoxin (DIG) at the 5′ end.

Hydroxyproline determination in the pancreas
A Hydroxyproline Assay Kit (MAK008, Sigma) was used following the manufacturer's instructions.Briefly, approximately 10 mg of pancreas tissues were used to determine hydroxyproline content.Tissues were homogenized in 100 μl of water with 100 μl of concentrated hydrochloric acid and hydrolyzed at 120 °C for 3 h.A chloramine T/oxidation buffer mixture was added into the homogenates and cultured for 5 min at room temperature (RT), and tissue culture continued with 4-dimethylaminobenzaldehyde (DMAB) reagent at 60 °C for 90 min.The optical absorbance was measured at 560 nm, and the hydroxyproline content was expressed as mg per gram of pancreas.

Biochemical measurements and Enzyme-linked immunosorbent assay (ELISA)
The levels of amylase in the serum were quantified using a kit (Amylase kit, C016-1-1, Nanjing Jiancheng Bioengineering Institute, Nanjing, China) according to the manufacturer's instructions.The concentrations of Reg4 in the serum of mice were determined using an ELISA kit (NBP2-82151, Novus) according to the instructions of the manufacturer.To determine the levels of REG4 in clinical samples, we used the human REG4 ELISA Kit (Shxybio, Shanghai, China) according to the manufacturer's instructions.

Histology
Sections were mounted on positively charged slides after cutting at a 4-μm thickness, baked at 65 °C for 1 h, and then stored at RT for later use.The sections were then stained with Haematoxylin and Eosin (H&E) staining for histological analysis.Necrosis was determined in at least six fields of view/ section using CaseViewer, with each group having over six sample sections.Fibrosis was assessed using Masson's trichrome stain according to the manufacturer's instructions (Servicebio, Wuhan, China).Collagen fibers were stained blue, the nuclei were stained black, and the background was stained red.Fibrosis was quantified by determining the blue areas of at least six fields of view/section with CaseViewer.Each group contained over five sections.

Immunohistochemical (IHC) and Immunofluorescence (IF) staining
Briefly, the sections were mounted on positively charged slides after cutting at 4-µm thickness, baked at 65 °C for 1 h, and incubated with xylol and descending concentrations of ethanol.Endogenous peroxidases were blocked using 0.3% H 2 O 2 for 10 min at RT, and after antigen retrieval, nonspecific binding was blocked using 5% bovine serum albumin for 30 min at RT.The antibodies were applied at their optimal concentrations overnight in a wet chamber at 4 °C.The slides were then rinsed with PBS and incubated with the appropriate secondary antibody for 1 h at RT.The slides were rinsed with PBS and counterstained with hematoxylin or 2-(4-amidinophenyl)-6-indolecarbamidine dihydrochloride (DAPI).Morphometric assessments were conducted in 10 randomly chosen microscopic high-power fields (hpf) per sample (n = 3-6 for each group).Images were analyzed with Image-Pro Plus software (Media Cybernetics, Rockville, MD, USA).Information regarding antibodies is presented in Supplementary Table S3.

TdT-mediated dUTP nick-end labeling (TUNEL) analysis
A TUNEL kit (G1507, Servicebio, Wuhan, China) was used to analyze cell death or the numbers of apoptotic cells in the pancreatic sections according to the manufacturer's instructions.Positive cells were visualized using diaminobenzidine (DAB) chromogen or fluorescence staining.The images were quantified using at least six fields of view/section with CaseViewer (each group contained more than three sample sections).

Isolation of pancreatic acinar cells
Pancreatic tissues were removed carefully from adult mice and suspended in Waymouth's medium.Tissues were then cut into small pieces (1-3 mm 3 ) and digested in 10 mL of Hank's Balanced Salt Solution (HBSS) containing 10 mM N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid (HEPES), 200 U/ml collagenase IA, and 0.25 mg/ml trypsin inhibitor at 37 °C for 15-20 min.Thereafter, cells were collected by centrifugation at 450 × g at 4 °C for 3 min, and the cellular pellets were suspended in 7 ml of Waymouth's medium (containing 2.5% FBS, 1% penicillin-streptomycin mixture, and 0.25 mg/ml trypsin inhibitor).Digested cells were filtered with a 100 μm cell strainer, and isolated acinar cells were seeded in a six-well culture dish and cultured at 37 °C in an atmosphere of 5% (v/v) CO 2 at high humidity.For treatments, 200 μg/l caerulein or 2 mg/ml arginine with or without 20 μg/ml rReg4 was added into the culture medium for 0, 2, 4, or 8 h.

Co-immunoprecipitation (Co-IP) assays
Total 30 mg protein lysates from mice pancreas was incubated with rReg4 protein (100 µg/ml) at 4 °C overnight to form the REG4/EXTL3 complexes.Binding was assessed by Ni-NTA-agarose immunoprecipitation followed by elution.The binding between REG4 and EXTL3 was analyzed by Western blotting with anti-EXTL3, anti-REG4, and anti-His antibodies.An aliquot of supernatant was kept as the input lysate prior to Immunoprecipitation (IP).

Cell culture and treatment
The mouse pancreatic islet cells MIN6 were obtained from the Wuhan Servicebio Technology Co., Ltd.This cell line was authenticated by its manufacturers and was test by mycoplasma contamination before using.MIN6 cells were cultured in a 37 °C and 5% CO 2 incubator.MIN6 cells were maintained in RPMI1640 medium (Invitrogen) with supplemented with 10% fetal bovine serum, 100 µg/mL penicillin, and 100 µg/mL streptomycin.Small interfering RNA (siRNA) oligonucleotides targeting Extl3 (#SR421199) were purchased from the Origene.MIN6 cells were transfected with siRNA (20 nM) or scrambled siRNA according to the manufacturer's instructions using lipofectamine™ RNAiMAX (#13778, Thermo Fisher).After 72 h of transfection, the cells were treated with 20 μg/ml rReg4 protein, 200 μg/l cerulean or combination of them for 6 h.The treated cells were next to performed Western-blot analysis.

Lactate dehydrogenase (LDH) cytotoxicity assay
Cytotoxicity was measured using an LDH Cytotoxicity Assay Kit (CK12, Dojindo, Japan) according to the manufacturer's instructions.Briefly, adding 10 μl of 10 × lysis buffer to the blank column and incubated the plate at 37 °C for 45 min with the appropriate level of CO 2 .Transferring 50 μl of the supernatant containing the treated acinar cells to a 96-well flatbottom plate and added 50 µl of the reaction mixture to each sample well.The plate was incubated at RT for 30 min, protected from light.Finally, adding 50 μl of stop solution to each sample well, and measured the optical absorbance at both 490 nm and 680 nm.

Protein extraction and Western-blot analysis
Briefly, approximately 50 mg of pancreatic tissues or isolated acinar cells was homogenized in RIPA buffer supplemented with a protease inhibitor cocktail (G2006, Servicebio, China) and trypsin inhibitor (XY210088, X-Y Biotechnology, China).We then used a Bicinchoninic Acid (BCA) Protein Assay Kit (#23225, Pierce) to determine the protein concentrations.Equal amounts of protein were separated on 10% Bis-Tris gels and transferred

Fig. 3
Fig.3Reg4 loss reduces regeneration of the ductal and acinar cells during pancreatitis.A IF staining of pancreatic sections for amylase (green) and CK19 (red) during pancreatitis (for each group, n = 4; t = 24 h, 2 weeks, 4 weeks, or 6 weeks).B Quantification of the acinar cell area and ductal cell number per field in (A).C IF staining of the pancreatic sections for Ki67 (green) and CK19 (red) during pancreatitis (for each group, n = 4; t = 24 h, 2 weeks, 4 weeks, or 6 weeks).D Quantification of the number of Ki67 + -CK19 + cells per field in (C).E IF staining of the pancreatic sections for amylase (green) and Ki67 (red) during pancreatitis (n = 4 for each group; t = 24 h, 2 weeks, 4 weeks, or 6 weeks).F Quantification of the Ki67 + -amylase + cells per field in (E); unpaired, two-tailed Student's t-test with or without Welch's correction analysis for (B, D, and F) (ns not significant; *P < 0.05, **P < 0.01, ***P < 0.001).

Fig. 4
Fig. 4 Reg4 deficiency reduces SOX9-positive cells in the pancreas during pancreatitis.A IF staining of the pancreatic sections for SOX9 (green) during pancreatitis (n = 4 for each group; t = 24 h, 2 weeks, 4 weeks, or 6 weeks).B Quantification of the number of SOX9-positive cells per field in (A).C IF staining of the pancreatic sections for SOX9 (green) and CK19 (red) during pancreatitis (for each group, n = 4; t = 24 h or 4 weeks).D Quantification of the SOX9 + -CK19 + cells per field in (C); unpaired, two-tailed Student's t-test with or without Welch's correction analysis for (B and D) (ns not significant; *P < 0.05, **P < 0.01).

Fig. 6
Fig. 6 Ablation of Reg4 leads to an increase in caerulein-induced fibrosis.A, B Representative images of Masson's trichrome staining and immunofluorescence (IF) staining of α-SMA in the pancreas of Wt and Reg4 −/− mice (n = 4 for each group; t = 2, 4, or 6 weeks).C Quantification of the fibrotic area using Masson's trichrome staining of images in (A).D Quantification of collagen content in the hydroxyproline assay in the pancreases of Wt and Reg4 −/− mice (n ≥ 4 for each group; t = 2, 4, or 6 weeks).E Western-blot analysis for CXCL12 and CXCR4 in the pancreases of Wt and Reg4 −/− mice after administration of caerulein for 1 week.F Quantification of panel E; GAPDH was used as the internal reference (n = 4); unpaired, two-tailed Student's t-test with or without Welch's correction analysis for C, D, and F (ns not significant; *P < 0.05, **P < 0.01, ***P < 0.001).